of the North Caucasus
Series ПИ #ФС 77-26521.
Federal service for surveillance over non-violation of the legislation in the sphere of mass communications and protection of cultural heritage.
ISSN 2073-8137
русский
english
Site search
Correspondence address
310 Mira Street, Stavropol, Russia, 355017
Tel
+7 865 2352511, +7 865 2353229.
E-mail
medvestnik@stgmu.ru
The journal is included into The list of leading scientific periodicals.
The journal is included into VINITI database and is registered in Electronic scientific library.
The journal is indexed by SCOPUS, Ulrich's International Periodicals Directory.
Bioresorbable membranes based on polyvinyl alcohol and fullerene
[Experimental medicine]
Gennady Grebnev; Aleksandr Ivanov; Andrey Vasilievich Kabankov; Musa Magomedovich Garunov; Vasily Rumakin; Irina Borodulina;
In this study, resorbable membranes based on polyvinyl alcohols with varying degrees of hydrolysis and fullerene (C60) were implanted under the femoral muscles of 73 outbred white mice with the aim of targeted bone tissue regeneration. The results of morphological studies showed that the final resorption of the membranes was achieved within 90 days. In the control group that was implanted with membranes based on polyvinyl alcohols without C 60, the membranes became encapsulated and did not undergo bioresorption within 90 days.
References:
1. Ivanov A. S. Osnovy dentalnoy implantacii. SPb.: SpeczLit; 2013.
2. Usikov L. V., Iordanishvili A. K., Balin D. V., Shengeliya E. V. Morfologicheskie i klinicheskie aspekty reparativnoy regeneracii kostnoj tkani chelyustey. SPb.; 2014.
3. Lee S.-W., Kim S.-G. Membranes for the guided bone regeneration. Maxillofacial Plastic and Reconstructive Surgery. 2014;36(6):239-246. https://doi.org/10.14402/jkamprs.2014.36.6.239
4. Bottino М. С., Thomas V. Membranes for periodontal regeneration – A materials perspective. Front. Oral Biol. 2015;17:90–100. https://doi.org/10.1159/000381699
5. Ruiz-Rubio L., Pérez-Álvarez L., Vilas-Vilela J. L. Biodegradable shape-memory polymers. Adv. Struct. Mater. 2020;115:219–236. https://doi.org/10.1007/978-981-13-8574-2_10
6. Milosevic M. Polymerization mechanics of dental composites-advantages and disadvantages. Proc. Eng.
2016;149:313-320. https://doi.org/10.1016/j.proeng.2016.06.672
7. Franskevych D., Palyvoda K., Petukhov D., Prylutska S., Grynyuk I. [et al.] Fullerene C60 penetration into leukemic cells and its photoinduced cytotoxic effects. Nanoscale Res. Lett. 2017;12(1): art. № 40. https://doi.org/10.1186/s11671-016-1819-5
8. Grebinyk A., Grebinyk S., Prylutska S., Ritter U., Matyshevska O. [et al.] C60 fullerene accumulation in human leukemic cells and perspectives of LED-mediated photodynamic therapy. Free Radical Biol. Med. 2018;124:319-327. https://doi.org/10.1016/j.freeradbiomed.2018.06.022
Keywords: tissue regeneration, resorbable membrane, fullerene, morphological study
Founders:
Stavropol State Medical Academy
Pyatigorsk State Research Institute of Balneotherapeutics
Pyatigorsk State Pharmaceutical Academy